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genesis.go
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genesis.go
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package simulation
import (
"encoding/json"
"fmt"
"math/rand"
sdk "github.com/mycodeku/transtionhelper/types"
"github.com/mycodeku/transtionhelper/types/module"
"github.com/mycodeku/transtionhelper/types/simulation"
"github.com/mycodeku/transtionhelper/x/auth/types"
vestingtypes "github.com/mycodeku/transtionhelper/x/auth/vesting/types"
)
// Simulation parameter constants
const (
MaxMemoChars = "max_memo_characters"
TxSigLimit = "tx_sig_limit"
TxSizeCostPerByte = "tx_size_cost_per_byte"
SigVerifyCostED25519 = "sig_verify_cost_ed25519"
SigVerifyCostSECP256K1 = "sig_verify_cost_secp256k1"
)
// RandomGenesisAccounts defines the default RandomGenesisAccountsFn used on the SDK.
// It creates a slice of BaseAccount, ContinuousVestingAccount and DelayedVestingAccount.
func RandomGenesisAccounts(simState *module.SimulationState) types.GenesisAccounts {
genesisAccs := make(types.GenesisAccounts, len(simState.Accounts))
for i, acc := range simState.Accounts {
bacc := types.NewBaseAccountWithAddress(acc.Address)
// Only consider making a vesting account once the initial bonded validator
// set is exhausted due to needing to track DelegatedVesting.
if !(int64(i) > simState.NumBonded && simState.Rand.Intn(100) < 50) {
genesisAccs[i] = bacc
continue
}
initialVesting := sdk.NewCoins(sdk.NewInt64Coin(sdk.DefaultBondDenom, simState.Rand.Int63n(simState.InitialStake)))
var endTime int64
startTime := simState.GenTimestamp.Unix()
// Allow for some vesting accounts to vest very quickly while others very slowly.
if simState.Rand.Intn(100) < 50 {
endTime = int64(simulation.RandIntBetween(simState.Rand, int(startTime)+1, int(startTime+(60*60*24*30))))
} else {
endTime = int64(simulation.RandIntBetween(simState.Rand, int(startTime)+1, int(startTime+(60*60*12))))
}
bva := vestingtypes.NewBaseVestingAccount(bacc, initialVesting, endTime)
if simState.Rand.Intn(100) < 50 {
genesisAccs[i] = vestingtypes.NewContinuousVestingAccountRaw(bva, startTime)
} else {
genesisAccs[i] = vestingtypes.NewDelayedVestingAccountRaw(bva)
}
}
return genesisAccs
}
// GenMaxMemoChars randomized MaxMemoChars
func GenMaxMemoChars(r *rand.Rand) uint64 {
return uint64(simulation.RandIntBetween(r, 100, 200))
}
// GenTxSigLimit randomized TxSigLimit
// make sure that sigLimit is always high
// so that arbitrarily simulated messages from other
// modules can still create valid transactions
func GenTxSigLimit(r *rand.Rand) uint64 {
return uint64(r.Intn(7) + 5)
}
// GenTxSizeCostPerByte randomized TxSizeCostPerByte
func GenTxSizeCostPerByte(r *rand.Rand) uint64 {
return uint64(simulation.RandIntBetween(r, 5, 15))
}
// GenSigVerifyCostED25519 randomized SigVerifyCostED25519
func GenSigVerifyCostED25519(r *rand.Rand) uint64 {
return uint64(simulation.RandIntBetween(r, 500, 1000))
}
// GenSigVerifyCostSECP256K1 randomized SigVerifyCostSECP256K1
func GenSigVerifyCostSECP256K1(r *rand.Rand) uint64 {
return uint64(simulation.RandIntBetween(r, 500, 1000))
}
// RandomizedGenState generates a random GenesisState for auth
func RandomizedGenState(simState *module.SimulationState, randGenAccountsFn types.RandomGenesisAccountsFn) {
var maxMemoChars uint64
simState.AppParams.GetOrGenerate(
simState.Cdc, MaxMemoChars, &maxMemoChars, simState.Rand,
func(r *rand.Rand) { maxMemoChars = GenMaxMemoChars(r) },
)
var txSigLimit uint64
simState.AppParams.GetOrGenerate(
simState.Cdc, TxSigLimit, &txSigLimit, simState.Rand,
func(r *rand.Rand) { txSigLimit = GenTxSigLimit(r) },
)
var txSizeCostPerByte uint64
simState.AppParams.GetOrGenerate(
simState.Cdc, TxSizeCostPerByte, &txSizeCostPerByte, simState.Rand,
func(r *rand.Rand) { txSizeCostPerByte = GenTxSizeCostPerByte(r) },
)
var sigVerifyCostED25519 uint64
simState.AppParams.GetOrGenerate(
simState.Cdc, SigVerifyCostED25519, &sigVerifyCostED25519, simState.Rand,
func(r *rand.Rand) { sigVerifyCostED25519 = GenSigVerifyCostED25519(r) },
)
var sigVerifyCostSECP256K1 uint64
simState.AppParams.GetOrGenerate(
simState.Cdc, SigVerifyCostSECP256K1, &sigVerifyCostSECP256K1, simState.Rand,
func(r *rand.Rand) { sigVerifyCostSECP256K1 = GenSigVerifyCostSECP256K1(r) },
)
params := types.NewParams(maxMemoChars, txSigLimit, txSizeCostPerByte,
sigVerifyCostED25519, sigVerifyCostSECP256K1)
genesisAccs := randGenAccountsFn(simState)
authGenesis := types.NewGenesisState(params, genesisAccs)
bz, err := json.MarshalIndent(&authGenesis.Params, "", " ")
if err != nil {
panic(err)
}
fmt.Printf("Selected randomly generated auth parameters:\n%s\n", bz)
simState.GenState[types.ModuleName] = simState.Cdc.MustMarshalJSON(authGenesis)
}